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MacroExpandModFile.cc
SymbolTable.cc 6.04 KiB
/*
* Copyright (C) 2003-2009 Dynare Team
*
* This file is part of Dynare.
*
* Dynare is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Dynare is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Dynare. If not, see <http://www.gnu.org/licenses/>.
*/
#include <algorithm>
#include <sstream>
#include "SymbolTable.hh"
SymbolTable::SymbolTable() : frozen(false), size(0)
{
}
void
SymbolTable::addSymbol(const string &name, SymbolType type, const string &tex_name) throw (AlreadyDeclaredException, FrozenException)
{
if (frozen)
throw FrozenException();
if (exists(name))
{
if (type_table[getID(name)] == type)
throw AlreadyDeclaredException(name, true);
else
throw AlreadyDeclaredException(name, false);
}
int id = size++;
symbol_table[name] = id;
type_table.push_back(type);
name_table.push_back(name);
tex_name_table.push_back(tex_name);
}
void
SymbolTable::addSymbol(const string &name, SymbolType type) throw (AlreadyDeclaredException, FrozenException)
{
// Construct "tex_name" by prepending an antislash to all underscores in "name"
string tex_name = name;
size_t pos = 0;
while((pos = tex_name.find('_', pos)) != string::npos)
{
tex_name.insert(pos, "\\");
pos += 2;
}
addSymbol(name, type, tex_name);
}
void
SymbolTable::freeze() throw (FrozenException)
{
if (frozen)
throw FrozenException();
frozen = true;
for(int i = 0; i < size; i++)
{
int tsi;
switch(getType(i))
{
case eEndogenous:
tsi = endo_ids.size();
endo_ids.push_back(i);
break;
case eExogenous:
tsi = exo_ids.size();
exo_ids.push_back(i);
break;
case eExogenousDet:
tsi = exo_det_ids.size();
exo_det_ids.push_back(i);
break;
case eParameter:
tsi = param_ids.size();
param_ids.push_back(i);
break;
default:
tsi = -1;
break;
}
type_specific_ids.push_back(tsi);
}
}
void
SymbolTable::changeType(int id, SymbolType newtype) throw (UnknownSymbolIDException, FrozenException)
{
if (frozen)
throw FrozenException();
if (id < 0 || id >= size)
throw UnknownSymbolIDException(id);
type_table[id] = newtype;
}
int
SymbolTable::getID(SymbolType type, int tsid) const throw (UnknownTypeSpecificIDException, NotYetFrozenException)
{
if (!frozen)
throw NotYetFrozenException();
switch(type)
{
case eEndogenous:
if (tsid < 0 || tsid >= (int) endo_ids.size())
throw UnknownTypeSpecificIDException(tsid, type);
else
return endo_ids[tsid];
case eExogenous:
if (tsid < 0 || tsid >= (int) exo_ids.size())
throw UnknownTypeSpecificIDException(tsid, type);
else
return exo_ids[tsid];
case eExogenousDet:
if (tsid < 0 || tsid >= (int) exo_det_ids.size())
throw UnknownTypeSpecificIDException(tsid, type);
else
return exo_det_ids[tsid];
case eParameter:
if (tsid < 0 || tsid >= (int) param_ids.size())
throw UnknownTypeSpecificIDException(tsid, type);
else return param_ids[tsid];
default:
throw UnknownTypeSpecificIDException(tsid, type);
}
}
void
SymbolTable::writeOutput(ostream &output) const throw (NotYetFrozenException)
{
if (!frozen)
throw NotYetFrozenException();
if (exo_nbr() > 0)
{
output << "M_.exo_names = '" << getName(exo_ids[0]) << "';" << endl;
output << "M_.exo_names_tex = '" << getTeXName(exo_ids[0]) << "';" << endl;
for (int id = 1; id < exo_nbr(); id++)
{
output << "M_.exo_names = strvcat(M_.exo_names, '" << getName(exo_ids[id]) << "');" << endl
<< "M_.exo_names_tex = strvcat(M_.exo_names_tex, '" << getTeXName(exo_ids[id]) << "');" << endl;
}
}
if (exo_det_nbr() > 0)
{
output << "M_.exo_det_names = '" << getName(exo_det_ids[0]) << "';" << endl;
output << "M_.exo_det_names_tex = '" << getTeXName(exo_det_ids[0]) << "';" << endl;
for (int id = 1; id < exo_det_nbr(); id++)
{
output << "M_.exo_det_names = strvcat(M_.exo_det_names, '" << getName(exo_det_ids[id]) << "');" << endl
<< "M_.exo_det_names_tex = strvcat(M_.exo_det_names_tex, '" << getTeXName(exo_det_ids[id]) << "');" << endl;
}
}
if (endo_nbr() > 0)
{
output << "M_.endo_names = '" << getName(endo_ids[0]) << "';" << endl;
output << "M_.endo_names_tex = '" << getTeXName(endo_ids[0]) << "';" << endl;
for (int id = 1; id < endo_nbr(); id++)
{
output << "M_.endo_names = strvcat(M_.endo_names, '" << getName(endo_ids[id]) << "');" << endl
<< "M_.endo_names_tex = strvcat(M_.endo_names_tex, '" << getTeXName(endo_ids[id]) << "');" << endl;
}
}
if (param_nbr() > 0)
{
output << "M_.param_names = '" << getName(param_ids[0]) << "';" << endl;
output << "M_.param_names_tex = '" << getTeXName(param_ids[0]) << "';" << endl;
for (int id = 1; id < param_nbr(); id++)
{
output << "M_.param_names = strvcat(M_.param_names, '" << getName(param_ids[id]) << "');" << endl
<< "M_.param_names_tex = strvcat(M_.param_names_tex, '" << getTeXName(param_ids[id]) << "');" << endl;
}
}
output << "M_.exo_det_nbr = " << exo_det_nbr() << ";" << endl
<< "M_.exo_nbr = " << exo_nbr() << ";" << endl
<< "M_.endo_nbr = " << endo_nbr() << ";" << endl
<< "M_.param_nbr = " << param_nbr() << ";" << endl;
output << "M_.Sigma_e = zeros(" << exo_nbr() << ", " << exo_nbr() << ");" << endl;
}